ESTRO 2023 - Abstract Book

S1963

Digital Posters

ESTRO 2023

Optical fibre sensors are a component of an in-vivo dosimetry system developed by the EU funded H2020 program “Origin” for source localization and dose measurement during prostate and gynaecological HDR brachytherapy procedures. It is essential to establish the effect of temperature change on dose measurements due to the possible temperature differences between calibration set up and clinical use. Materials and Methods Sensors consist of a 1Y2O3:Eu+4YVO4:Eu and PMMA tip coupled to a polymer optical fibre. Output measurements are obtained with a 16 silicon photomultiplier (SiPM) array. Measurements with a 5 cm source-sensor distance were taken using a custom Perspex water tank adapted to hold the optical fibre dosimeters and the afterloaded Ir-192 Flexisource within 6F Elekta Proguide needles. An equivalent exposure time of 10 seconds for a 40,000 cGy cm2/h source strength was used. Detector output in photon counts per second was averaged for the exposure time with the dark count rate subtracted. Statistical uncertainty and reproducibility were quantified using three repeated measurements at one temperature. Detector temperature dependence was evaluated by placing 14 optical fibres in a water filled plastic vessel with a magnetic stirrer at an initial temperature of 39.6°C. The Perspex water tank was filled with cold water and an icepack to induce cooling to room temperature at 26.7°C. Dosimeter temperature was monitored outside the treatment room using a DS18B20 temperature sensor connected to an Arduino Nano, with the source being deployed when a temperature change of 1°C was recorded. Results Applying a linear regression model and averaging the change in count magnitude between temperatures of 26.7°C and 39.6°C for fourteen fibres results in a total change in detector output of 0.43% with a standard error of 0.47% (k = 3). The combined uncertainty of the statistical noise in photon counting and the reproducibility for each detector is presented in table 1. Two fibres are excluded due to a sensor and SiPM fault. For a total of 196 measurements for all fibres, 47 exceeded the measurement uncertainty.

Conclusion